Global ETD Search

11	BREEDING PRODUCTIVITY, NEST DISTRIBUTION, AND POPULATION ECOLOGY OF WOOD DUCKS IN FLOODPLAIN AND UPLAND FORESTS OF SOUTHERN ILLINOIS Anderson, Robert Gray 01 May 2010 (has links) Wood ducks are thought to depend on mature hardwood forests juxtaposed with palustrine wetlands but these habitats have been continuously degraded or destroyed since European settlement. Wood ducks are adaptable and the use of marginal habitats and nest boxes has extended their range and probably was important to the recovery of wood duck populations. Until now no study has analyzed the contribution of upland nesting to local population growth and maintenance. I investigated predation effects on nest site selection using wood duck nests and simulated nests placed in natural cavities. Using demographic data collected on wood ducks in southern Illinois, I created a population model to compare growth rates of population segments that nested in upland and floodplain habitats. During 1993-1998, 179 of 244 radiomarked hens remained on the study area as resident hens. One hundred-four nests were located by following radiomarked hens and 66% of nests were found in upland forests. Nests in the floodplain were initiated earlier than nests in the upland. Thirty-six percent of known nest cavities were used in subsequent years but <10% were used by the same hen. Nest success was greater in upland habitats (0.78 ± 0.10) than in floodplain habitats (0.54 ± 0.18). Hen survival through the nesting season was 0.80 ± 0.03 and did not differ between habitats or age classes. Sixty-five percent (n = 43) of simulated floodplain nests were destroyed compared to 33% (n = 45) in the upland. Logistic regression models of simulated nest data indicated cavity security could be important in the fragmented floodplain forests of Union County Conservation Area (UCCA). No physical characteristics of wood duck nest cavities differentiated successful and unsuccessful nesting attempts. The growth rate of the local population was positive and estimated to be about 3%. Lambda was most sensitive to upland nesting parameters and floodplain parameters appeared to have little impact on lambda. Hens nesting in the area appear to have adapted to predation pressure by nesting in more secure floodplain cavities at UCCA or by nesting in the upland habitats. Floodplain and upland habitats are ecologically intertwined and the local wood duck population would not survive if either habitat were destroyed or severely degraded. natural cavity nest site selection simulated nest southern illinois wood duck
12	Individual and Interactive Impacts of Mercury and Agriculture on Reproduction in a Freshwater Turtle, Chelydra serpentina Thompson, Molly Marie 26 June 2017 (has links) In aquatic turtles, females select nest sites that have a high degree of solar exposure, and exploit recently tilled agricultural fields for nesting, presumably because of increased solar exposure and/or easier nest excavation, and the importance of incubation temperature on survival and offspring phenotype. These same disturbed sites are often contaminated by pollutants and turtles can incorporate high levels of pollutants into their eggs which negatively impact hatch success. For my M.S. research, I investigated turtle nest site selection in a system dominated by agricultural and industrial land use, the impact of crop growth on the thermal and hydric dynamics of turtle nests, and I used paired field and laboratory experiments to examine the individual and interactive impacts of agricultural land use and Hg contamination on hatch success and offspring phenotype in Chelydra serpentina. Of the 150 turtle nests found during this research, 84% were located in human-disturbed soils. Nest site characteristics were similar among nests found in Hg contaminated and reference areas. Agriculture and control nests did not differ in temperature at the time of nesting, but temperatures diverged as crops grew, with temperatures in nests in agricultural fields averaging 2.5 °C lower than control nests over the course of incubation. Similarly, despite no initial difference, nest moisture levels diverged throughout incubation and moisture averaged 107 kPa lower in agricultural than control soils throughout incubation. In my field and laboratory experiments, I found that in comparison to turtles from control incubation conditions (i.e., warmer), turtles incubated under agricultural thermal regimens (i.e., colder) took longer to hatch, hatched at smaller structural body sizes, lost more mass after hatching, had lower post-hatching structural growth rates, and were more likely to be male. Additionally, thermal conditions associated with agricultural land use interacted with high levels of mercury to impact hatching success and offspring sex ratios. My thesis research provides one of the first documentations of negative interactive effects of mercury pollution and habitat quality on early vertebrate development and highlights the importance of examining the combined influence of multiple global changes on biological systems. / Master of Science Mercury agriculture nest-site selection offspring phenotype temperature-dependent sex determination
13	Habitat selection, nest predation and conservation biology in a Black-tailed Godwit (Limosa limosa) population Johansson, Tomas January 2001 (has links) <p>This thesis focuses on a black-tailed godwit (<i>Limosa limosa</i>) population, consisting of 35-40 pairs, that breeds on a grazed shore meadow on SE Gotland, Sweden. The small size of the population makes it more prone to extinction due to chance events, than a larger population.</p><p>The godwits showed microhabitat preferences when choosing nest sites. Godwit nests had higher vegetation over the nest cup, lower surrounding (1-3 m) vegetation and different plant species composition, as compared to random sites. Breeding near conspecifics or other wader species, especially lapwings (<i>Vanellus vanellus</i>) and further away from potential predator perches were the most important factors in decreasing nest predation. A comparison between different shore meadows along the east coast of the island revealed that large, open areas suffered less from nest predation. Thus, shore meadows suitable for breeding godwits should be large and without trees or other predator perches and have a grazing regime that favours variation in vegetation height.</p><p>Over 80% of previously ringed adults returned each year, but very few birds ringed as chicks were recovered. Hatching success was 55-60% for all observed nests. To predict the future of the current population, demographic data were used in an ecological risk analysis. The simulations showed that the Gotlandic population will not survive the coming 40 years without immigration.</p><p>Black-tailed godwits are divided into three subspecies. Genetic analyses (mtDNA) revealed that all subspecies had unique haplotypes and there was a clear geographic structure among subspecies. Within the <i>limosa</i> subspecies, godwits on Gotland and Öland showed a high proportion of rare haplotypes, but no genetic variation was found in Dutch birds. These results imply that black-tailed godwits on Gotland and Öland have high conservation value.</p> Developmental biology Black-tailed godwit Limosa limosa nest site selection nest predation philopatry risk analysis Utvecklingsbiologi Developmental biology Utvecklingsbiologi
14	Habitat selection, nest predation and conservation biology in a Black-tailed Godwit (Limosa limosa) population Johansson, Tomas January 2001 (has links) This thesis focuses on a black-tailed godwit (Limosa limosa) population, consisting of 35-40 pairs, that breeds on a grazed shore meadow on SE Gotland, Sweden. The small size of the population makes it more prone to extinction due to chance events, than a larger population. The godwits showed microhabitat preferences when choosing nest sites. Godwit nests had higher vegetation over the nest cup, lower surrounding (1-3 m) vegetation and different plant species composition, as compared to random sites. Breeding near conspecifics or other wader species, especially lapwings (Vanellus vanellus) and further away from potential predator perches were the most important factors in decreasing nest predation. A comparison between different shore meadows along the east coast of the island revealed that large, open areas suffered less from nest predation. Thus, shore meadows suitable for breeding godwits should be large and without trees or other predator perches and have a grazing regime that favours variation in vegetation height. Over 80% of previously ringed adults returned each year, but very few birds ringed as chicks were recovered. Hatching success was 55-60% for all observed nests. To predict the future of the current population, demographic data were used in an ecological risk analysis. The simulations showed that the Gotlandic population will not survive the coming 40 years without immigration. Black-tailed godwits are divided into three subspecies. Genetic analyses (mtDNA) revealed that all subspecies had unique haplotypes and there was a clear geographic structure among subspecies. Within the limosa subspecies, godwits on Gotland and Öland showed a high proportion of rare haplotypes, but no genetic variation was found in Dutch birds. These results imply that black-tailed godwits on Gotland and Öland have high conservation value. Developmental biology Black-tailed godwit Limosa limosa nest site selection nest predation philopatry risk analysis Utvecklingsbiologi Developmental biology Utvecklingsbiologi
15	Nesting Range, Spatial Use, Habitat Selection and Sex Identification of the Greater Raodrunner (Geococcyx californianus) Montalvo, Andrea 14 March 2013 (has links) I conducted this study to better understand the greater roadrunner’s (Geococcyx californianus) spatial use, nest site selection, and sexual morphometrics. Data were first collected from a roadrunner population in Fisher County, Texas. I trapped, measured, and removed feathers for sex confirmation through DNA PCR analysis. I then fit the roadrunners with a radio transmitter and released them at the capture site. I captured a total of 10 birds (1 male and 9 females) and triangulated the location of each bird 2-4 times per week from February to August 2011 during the roadrunner nesting season. The data produced a mean minimum convex polygon nesting range of 43.01-ha, a 50% core utilization distributions of 11.88-ha, and an overlap index of 33.05 percent. Habitat selection ratios showed a preference for ridge as well as grassland habitat and avoidance of bare ground and flatland habitats. The location data from west Texas was further analyzed to build a predictive logistic regression model to understand the significant site characteristics in roadrunner land use during the nesting season. It was determined that percent rock (-0.12, P = 0.0001) and percent litter (-0.05, P = 0.0052) were the best predictors in determining actual from random locations. Rock references open area for hunting, transportation as well as ridge habitat. Litter alludes to region below dense stands of shrubs and is used by roadrunners for evasion from threats and as shade for thermoregulation. The measurements from the roadrunners in west Texas as well as museum specimens from across their natural range were combined to develop an easy, inexpensive, and field-relevant sex identification model. The strongest model consisted of bill depth (0.79, P< 0.0001) and bill tip to the back of the head (0.05, P = 0.1573) which were both found to be larger in males. The final portion of this study concerned roadrunner nest site selection. Data were collected in Wilbarger County, Texas from May 2006 to October 2009. A predictive logistic regression model of nesting locations determined that mesquite nesting tree (-0.89, P = 0.0064), oval tree shape (1.58, P = 0.0118), mesquite density (-0.004, P = 0.0080), and topographic edge (1.37, P = 0.0027) were the best predictors in determining actual nest sites from random locations. Nest Site Selection Radio Telemetry Wilbarger County Fisher County Spatial Use Sex Identification Nesting Range Greater Roadrunner
16	Determining The Impacts Of Beach Restoration On Loggerhead (caretta Caretta) And Green Turtle (chelonia Mydas) Nesting Patterns And Reproductive Success Along Florida's Atlantic Coast Hays, Allison Whitney 01 January 2012 (has links) Artificial beach nourishment, the most common method to mitigate coastal erosion in the United States, is also considered the most ecologically friendly alternative for shoreline stabilization. However, this habitat alteration has the potential to impact nesting marine turtles and developing hatchlings. The first objective of this study was to determine how nourishing beaches with two different design templates affects loggerhead (Caretta caretta) and green turtle (Chelonia mydas) nesting success, the ratio of nests to the total number of nests and non-nesting emergences, and reproductive success, the ratio of hatched and emerged hatchlings to the total number of eggs deposited. Two types of restoration designs exist along the southern Brevard County, FL coastline, which supports some of the highest density loggerhead and green turtle nesting worldwide. Since 2005, approximately 35 kilometers of beach have undergone 1) fullscale restoration (typically called nourishment), where sand was added above and below the mean high tide line (2005, 2010) or 2) dune restoration, where sand was placed on the dune (2005, 2006, 2008, 2009). To quantify the effects of these restoration types, we used a Before-After-ControlImpact-Paired Series (BACIPS) model, which tests for significance between the difference in nesting success rates at the impact (engineered) and control sites (natural beach) before and after restoration ( ). For loggerheads, there was a significant difference in after dune restoration during the years of construction (2005, 2006, 2008, and 2009; p Beach nourishment dune restoration beach restoration loggerhead green turtle nesting success reproductive success nesting cues nest site selection Biology
17	Behavioral and reproductive consequences of predator activity to grassland birds Thieme, Jennifer Lee 20 October 2011 (has links) No description available. Ecology predator prey avian nest success grassland bird reproduction territory selection mesopredator nest site selection daily survival
18	Behavioral Ecology and Conservation Genetics of the Sister Islands Rock Iguana Moss, Jeanette Blair 03 May 2019 (has links) Insular fauna face disproportionate risks of extinction owing to direct human perturbation and intrinsic factors that are enhanced at small population sizes. Currently, our understanding of the processes that promote long-term persistence of naturally small populations and the cryptic processes that may contribute to accelerating their decline is limited by lack of empirical investigations across the range of natural conditions. Implementing effective protections for rare and understudied taxa requires the identification and examination of factors that limit recruitment at critical life stages. Predicting population health outcomes of future perturbations further necessitates an understanding a taxon’s behavioral ecology. Finally, cryptic threats to viability, such as inbreeding depression, must be investigated with an appreciation for taxon-specific life history, as these attributes can alter the context in which severe fitness reductions are expressed. In this project I enlist integrative and cross-disciplinary approaches to study the behavioral ecology and conservation genetics of a critically endangered West Indian Rock Iguana, Cyclura nubila caymanensis, on Little Cayman Island. I demonstrate how coastal communal nesting areas, a critical limiting resource on the island, serve a diverse population demographic and contribute to significantly enhanced nesting outcomes. These data emphasize the importance of expanding protections for major sites, as aggregative nesting appears to be perpetuated by both habitat suitability and adaptive fitness benefits. I next evaluate the possibility of evolved inbreeding avoidance strategies, including natal dispersal, non-assortative mate choice, and genetic bet-hedging. I conclude that the contribution of pre-reproductive dispersal to inbreeding avoidance likely outweighs that of active mate choice. Importantly, observed patterns of siring success imply constrained female choice and sexual conflict over genetic mating outcomes – a pattern that may extend to many territorial, male-driven mating systems and therefore should be an important consideration in genetic management. Finally, I investigate age-dependent inbreeding effects and the degree to which inbreeding depression may limit recruitment to the breeding population. I fail to reveal significant correlations of multi-locus heterozygosity with hatchling fitness; however, negative effects of parental inbreeding on fecundity and hatching success imply fitness consequences of inbreeding depression could be felt at other life stages. nest site selection hybrid iguanas mating system inbreeding avoidance reptile island Little Cayman movement dispersal communal nesting small population dynamics inbreeding depression
19	Breeding ecology and nest site selection of Kittlitz's murrelets on Kodiak Island, Alaska Lawonn, Matthew James 14 December 2012 (has links) The Kittlitz's murrelet (Brachyramphus brevirostris) is a rare member of the seabird family Alcidae that breeds in coastal areas of Alaska and Beringian Russia. The species belongs to the genus Brachyramphus, an unusual seabird taxon in which all three extant species nest non-colonially, situating their nests up to 75 km inland from coastal marine waters. This nesting strategy is different from that of most seabird species, which tend to nest colonially on remote islands or sea cliffs, where terrestrial predators are generally absent or cannot easily access nests. Within the genus Brachyramphus, Kittlitz's murrelet is notable because a majority of the global population appears to nest on the surface of the ground in rocky alpine habitat near inland or tidewater glaciers, foraging in adjacent marine waters influenced by glacial outflows. The unusual nesting habits of Kittlitz's murrelet have made the study of its nesting ecology difficult, and gaps therefore exist in our understanding of the species' breeding biology. Kittlitz's murrelet populations have declined substantially in core areas of its range, causing the U. S. Fish and Wildlife Service to designate the species as a candidate for protection under the Endangered Species Act. A better understanding of Kittlitz's murrelet nesting ecology is crucial for determining potential causes of these declines and for future management of the species. To this end, I studied Kittlitz's murrelet breeding ecology and nest site selection during 2008-2011 on Kodiak Island, Alaska, in an unglaciated area that was recently found to have large numbers of accessible nests. I and my colleagues found 53 active Kittlitz's murrelet nests in inland scree-dominated habitats and placed remote, motion-sensing cameras at 33 nests. Adults exchanged incubation duties at the nest every 24 or 48 h, almost exclusively during early morning twilight. Following hatching of eggs, parents provisioned their single nestling with an average of 3.9 to 4.8 fish per day, depending on the year. Parental visits to the nest during chick-rearing occurred primarily after sunrise in the early to mid-morning hours, and during evening twilight. Fish were delivered singly to the chick, and Pacific sand lance (Ammodytes hexapterus), a high-lipid forage fish, accounted for about 92% of all identifiable chick meal deliveries. Chick growth rates were high relative to confamilial species, consistent with the high quality of chick diets; the logistic growth rate constant (K) was 0.291, greater than that for any other semi-precocial alcid. Chicks fledged an average of 24.8 d after hatching and asymptotic chick body mass averaged about 135.5 g, approximately 58% of adult body mass. Age at fledging, asymptotic chick body mass (% adult mass), and the number of meal deliveries required to fledge a chick were all lower than or as low as any other species of semi-precocial alcid. The average estimated nest survival rate during 2008-2011 was 0.093 (95% CI = 0.01–0.30), which is extremely low compared to other species in the family Alcidae, and is almost certainly insufficient to sustain a stable population. The primary causes of nest failure were depredation (47% of total nest fates), mostly by red foxes (Vulpes vulpes), and unexplained nestling mortality on the nest (21% of nest fates). Saxitoxin and/or pathogenic endoparasite burdens were observed in five of six necropsied chick carcasses, suggesting possible causes for chick mortality not directly attributable to predation. Habitat characteristics of Kittlitz's murrelet nest sites differed significantly from unused sites at several scales. At a small scale (within 5 m of the nest), nest sites had a lower percent coverage of vegetation and higher percent coverage of intermediate-sized rocks (5–30 cm diameter), compared to randomly selected unused sites. Nest sites were also located on steeper, more north-facing slopes compared to randomly selected sites. Nest sites also had a lower percent coverage of vegetation than randomly-selected sites at larger scales (within 25 m and 50 m of the nest site). Nest sites were located significantly farther from the edge of densely-vegetated habitats than random sites. There was no evidence that nest sites were different from randomly-selected sites in terms of elevation, proximity to ridgelines, or proximity to the open ocean, although a low degree of variation within the study area for these habitat characteristics may have precluded detection of potential differences. Nest survival rates did not co-vary with slope, percent vegetation coverage, distance from vegetated edges, or percent cover of intermediate-sized rocks; however, this result may be an artifact of a limited sample size. The results of this thesis will provide managers with a better understanding of the factors that may limit Kittlitz's murrelet nesting success, such as nest predation and forage fish availability, as well as factors that may influence the quality and distribution of Kittlitz’s murrelet nesting habitat in the future, given on-going and progressive climate change. / Graduation date: 2013 Kittlitz's murrelet nest site selection nest-site selection breeding ecology Alcidae Kodiak random forests forage fish sand lance predation Brachyramphus mixed-effects model provisioning nest dispersion non-colonial seabird camera trap Brachyramphus brevirostris
20	Uso e seleção de hábitat de nidificação e identificação dos fatores de influência no sucesso dos ninhos de Elaenia chiriquensis (Aves: Tyrannidae) em área de Cerrado na Estação Ecológica de Itirapina, região central do estado de São Paulo Silva, Marina Telles Marques da 29 June 2012 (has links) Made available in DSpace on 2016-06-02T19:29:57Z (GMT). No. of bitstreams: 1 5249.pdf: 4090294 bytes, checksum: 3e43d0f22c6895a3bc1866edf5eafc88 (MD5) Previous issue date: 2012-06-29 / Financiadora de Estudos e Projetos / Nesting is a critical step on bird s life cycle, since nest predation is high all over the world. Predation influences the population dynamics, the community structure and the life history of birds. Birds evolved anti-predatory strategies, which include selection of safer places for nesting. Here we intent to: (i) analyze habitat characteristics selected by adults, and (ii) evaluate the influence of these elements on nests success, and fitness consequences to individuals. We studied the Lesser Elaenia (Elaenia chiriquensis), a migratory bird that breeds in Brazilian Savannas. We conducted the study between 2010 e 2011 in a 100 ha area in the Estação Ecológica de Itirapina, a protected area in São Paulo state, were the Lesser Elaenia is abundant along its breeding season (September to December). We analyzed habitat selection comparing characteristics of used and available patches. We made all tests using chi-square tests, analysis of variance, paired t-tests and permutation tests. We used program MARK to evaluate the influence of all of the parameters on nests success. We created a set of models that included temporal and a set of environmental parameters and used Akaike s Information Criterion to evaluate the adjustment of each model to our data. Adults apparently selected anemochoric plants, with larger crowns and more lichen flakes on stalks, but did not show preference for specific plant species. Individuals also preferred patches with high plant density and high density of Aspidosperma tomentosum, the most used plant as nest substrate. Contrary of our expectations, none of these characteristics influenced nests success. However, some parameters not evaluated for selection, influenced the offspring survival. Vegetation density on nest sites was the most important variable, probably because it helps concealing nests and parental activities. Nest age and time along the breeding season were also important elements and both reduced nests success. Nest predation, habitat selection, and their consequences to the fitness are complex and are related to many variables. The present study contributed with the knowledge on this subject in tropical areas. / A nidificação é uma etapa crítica no ciclo de vida das aves, uma vez que a predação de ninhos é alta em todo o globo. Ela exerce influência na dinâmica das populações, estrutura das comunidades e evolução da história de vida do grupo. Diante disso, evoluíram estratégias antipredação, entre elas, a seleção de hábitats seguros para a nidificação pelos adultos. Assim, nesse trabalho tivemos como objetivos principais (i) conhecer os elementos do hábitat de nidificação selecionados pelos adultos e (ii) avaliar a influência desses elementos no sucesso dos ninhos, de forma a conhecer o valor adaptativo das escolhas dos adultos. Trabalhamos com Elaenia chiriquensis, um Passeriforme migratório que nidifica em áreas de Cerrado no Brasil. Conduzimos o estudo entre 2010 e 2011, em uma área de 100 ha na Estação Ecológica de Itirapina, unidade de conservação localizada no interior paulista, em que E. chiriquensis é abundante na estação reprodutiva (setembro a dezembro). Fizemos as análises de seleção do hábitat de nidificação comparando características das manchas de nidificação às manchas nas imediações, disponíveis aos casais. Usamos testes de Qui- Quadrado, análises de variância (ANOVAs), testes de permutação e testes-t pareados para as variáveis amostradas. Para avaliarmos a influência dessas e de outras características, relacionadas aos ninhos, na sobrevivência da prole, usamos o programa MARK. Criamos modelos que incluíam variáveis temporais e nossas variáveis de interesse e avaliamos, usando o critério de informação de Akaike, o ajuste dos modelos ao nosso conjunto de dados. Os adultos aparentemente selecionaram vegetais anemocóricos, com copa de tamanho maior e maior abundância de liquens nos caules como substrato dos ninhos, mas não exibiram preferência pelas espécies usadas como substrato. Elaenia chiriquensis também mostrou preferência por locais com alta densidade de vegetação lenhosa e alta abundância de Aspidosperma tomentosum, a espécie vegetal mais usada como substrato dos ninhos. Contrariando nossas expectativas, nenhuma dessas características teve influência no sucesso dos ninhos. No entanto, características relacionadas aos ninhos, e que não foram avaliadas quanto à seleção, tiveram influência na sobrevivência da prole. A mais importante delas foi a densidade de vegetação nos sítios de nidificação, que provavelmente reduz as chances de encontros com predadores e oculta a atividade dos adultos. A idade dos ninhos e a influência do tempo ao longo das estações também foram variáveis de peso na explicação dos dados e ambos reduziram as chances de sucesso dos ninhos. A predação de ninhos, a seleção do hábitat de nidificação e as consequências para o fitness dos indivíduos são assuntos de grande complexidade biológica e envolvem diversas variáveis. O presente estudo contribui com o conhecimento acerca do assunto em áreas tropicais. Ecologia da população Cerrados Predação de ninhos Historia natural Ecologia de comunidades Elaenia chiriquensis Seleção de hábitat de nidificação Sucesso dos ninhos Brazilian Savanna, Lesser Elaenia Nest predation Nest site selection Nest success CIENCIAS BIOLOGICAS::ECOLOGIA

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